private void InitializeFields() { Fields.Clear(); DisplayFields.Clear(); var inputFormat = ""; var displayFormat = ""; var button = new DropDownButton(); var isWareki = CalendarFormat == CalendarFormat.JapaneseCalendar; switch (InputDateType) { case DateType.YearMonthDay: inputFormat = isWareki ? "ee/MM/dd" : "yyyy/MM/dd"; displayFormat = isWareki ? "ggg ee/MM/dd" : "yyyy/MM/dd"; DropDownCalendar.CalendarType = CalendarType.MonthDay; break; case DateType.YearMonth: inputFormat = isWareki ? "ee/MM" : "yyyy/MM"; displayFormat = isWareki ? "ggg ee/MM" : "yyyy/MM"; DropDownCalendar.CalendarType = CalendarType.YearMonth; break; case DateType.Year: inputFormat = isWareki ? "ee" : "yyyy"; displayFormat = isWareki ? "ggg ee" : "yyyy"; DropDownCalendar.CalendarType = CalendarType.YearMonth; button.Visible = ButtonVisibility.NotShown; break; case DateType.MonthDay: inputFormat = "MM/dd"; displayFormat = "MM/dd"; DropDownCalendar.CalendarType = CalendarType.MonthDay; break; case DateType.YearMonthDayHour: inputFormat = isWareki ? "ee/MM/dd HH時" : "yyyy/MM/dd HH時"; displayFormat = isWareki ? "ggg ee/MM/dd HH時" : "yyyy/MM/dd HH時"; DropDownCalendar.CalendarType = CalendarType.MonthDay; break; case DateType.YearMonthDayHourMinute: inputFormat = isWareki ? "ee/MM/dd HH時mm分" : "yyyy/MM/dd HH時mm分"; displayFormat = isWareki ? "ggg ee/MM/dd HH時mm分" : "yyyy/MM/dd HH時mm分"; DropDownCalendar.CalendarType = CalendarType.MonthDay; break; case DateType.YearMonthDayHourMinuteSecond: inputFormat = isWareki ? "ee/MM/dd HH時mm分ss秒" : "yyyy/MM/dd HH時mm分ss秒"; displayFormat = isWareki ? "ggg ee/MM/dd HH時mm分ss秒" : "yyyy/MM/dd HH時mm分ss秒"; DropDownCalendar.CalendarType = CalendarType.MonthDay; break; } Fields.AddRange(inputFormat); DisplayFields.AddRange(displayFormat); SideButtons.Clear(); SideButtons.Add(button); }
private void FormCentralPatientSearch_Load(object sender, System.EventArgs e) { DisplayFields.RefreshCache(); _complConnAmt = 0; _dataConnPats = new DataSet(); _invalidConnsLog = ""; StartThreadsForConns(); }
private void FormCentralPatientSearch_Load(object sender, System.EventArgs e) { DisplayFields.RefreshCache(); _complConnCount = 0; _dataSetPats = new DataSet(); _invalidConnsLog = ""; //if(IsSelectionMode) {//always selection mode gridPats.Title = "Double Click to Select Patient"; StartThreadsForConns(); }
private void GetDataTablePatForConn(ODThread odThread) { CentralConnection connection = (CentralConnection)odThread.Parameters[0]; //Filter the threads by their connection name string connName = ""; if (connection.DatabaseName == "") //uri { connName = connection.ServiceURI; } else { connName = connection.ServerName + ", " + connection.DatabaseName; } if (!CentralConnectionHelper.SetCentralConnection(connection, false)) { lock (_lockObj) { _invalidConnsLog += "\r\n" + connName; _complConnCount++; } connection.ConnectionStatus = "OFFLINE"; BeginInvoke((Action)FillGridPats); return; } List <DisplayField> fields = DisplayFields.GetForCategory(DisplayFieldCategory.CEMTSearchPatients); bool hasNextLastVisit = fields.Any(x => x.InternalName.In("NextVisit", "LastVisit")); DataTable table = new DataTable(); try { PtTableSearchParams ptTableSearchParams = new PtTableSearchParams(checkLimit.Checked, textLName.Text, textFName.Text, textPhone.Text, textAddress.Text, checkHideInactive.Checked, textCity.Text, textState.Text, textSSN.Text, textPatNum.Text, textChartNumber.Text, 0, checkGuarantors.Checked, !checkHideArchived.Checked,//checkHideArchived is opposite label for what this function expects, but hideArchived makes more sense SIn.DateT(textBirthdate.Text), 0, textSubscriberID.Text, textEmail.Text, textCountry.Text, "", "", "", "", hasNextLastVisit: hasNextLastVisit); table = Patients.GetPtDataTable(ptTableSearchParams); } catch (ThreadAbortException tae) { throw tae; //ODThread needs to clean up after an abort exception is thrown. } catch (Exception) { //This can happen if the connection to the server was severed somehow during the execution of the query. lock (_lockObj) { _invalidConnsLog += "\r\n" + connName + " -GetPtDataTable"; _complConnCount++; } BeginInvoke((Action)FillGridPats); //Pops up a message box if this was the last thread to finish. return; } table.TableName = connName; odThread.Tag = table; lock (_lockObj) { _complConnCount++; _dataSetPats.Tables.Add((DataTable)odThread.Tag); } BeginInvoke((Action)FillGridPats); }
public override string ToString() { var sb = new StringBuilder("ChatRoomAnnouncementContents("); bool __first = true; if (__isset.displayFields) { if (!__first) { sb.Append(", "); } __first = false; sb.Append("DisplayFields: "); DisplayFields.ToString(sb); } if (Text != null && __isset.text) { if (!__first) { sb.Append(", "); } __first = false; sb.Append("Text: "); Text.ToString(sb); } if (Link != null && __isset.link) { if (!__first) { sb.Append(", "); } __first = false; sb.Append("Link: "); Link.ToString(sb); } if (Thumbnail != null && __isset.thumbnail) { if (!__first) { sb.Append(", "); } __first = false; sb.Append("Thumbnail: "); Thumbnail.ToString(sb); } sb.Append(")"); return(sb.ToString()); }
private void SetGridCols() { //This pattern is wrong. gridMain.BeginUpdate(); gridMain.Columns.Clear(); ODGridColumn col; fields = DisplayFields.GetForCategory(DisplayFieldCategory.PatientSelect); for (int i = 0; i < fields.Count; i++) { if (fields[i].Description == "") { col = new ODGridColumn(fields[i].InternalName, fields[i].ColumnWidth); } else { col = new ODGridColumn(fields[i].Description, fields[i].ColumnWidth); } gridMain.Columns.Add(col); } gridMain.EndUpdate(); }
public override int GetHashCode() { int hashcode = 157; unchecked { if (__isset.displayFields) { hashcode = (hashcode * 397) + DisplayFields.GetHashCode(); } if (__isset.text) { hashcode = (hashcode * 397) + Text.GetHashCode(); } if (__isset.link) { hashcode = (hashcode * 397) + Link.GetHashCode(); } if (__isset.thumbnail) { hashcode = (hashcode * 397) + Thumbnail.GetHashCode(); } } return(hashcode); }
protected override void RenderContents(HtmlTextWriter output) { String html = ""; output.AddAttribute(HtmlTextWriterAttribute.Id, this.ID); if (Class != null) { output.AddAttribute("class", this.Class); } try { DataSet ds = null; if (SQL != "") { string[] kolonlar = Columns.Split(','); string[] fieldlar = DisplayFields.Split(','); string prov = Config.provider.ToString(); if (prov == "MSSQL") { ds = WebFramework.DataSetFill(SQL, SQLParams.ToArray()); } else if (prov == "MYSQL") { ds = MySQLDb.WebFramework.DataSetFill(SQL, SQLParams.ToArray()); } else if (prov == "ACCESS") { ds = AccessDb.WebFramework.DataSetFill(SQL, SQLParams.ToArray()); } else if (prov == "ORACLE") { ds = OracleDb.WebFramework.DataSetFill(SQL, SQLParams.ToArray()); } if (ds.Tables[0].Rows.Count > 0) { html += "<thead><tr>"; for (int i = 0; i < fieldlar.Length; i++) { html += "<td>" + fieldlar[i].Trim() + "</td>"; } String content = ""; if (this.Content != null) { Control templateContainer = new Control(); Content.InstantiateIn(templateContainer); content = RenderControl(templateContainer); } if (content != "") { html += "<td class='tablecontrol_content'>" + ContentHeaderTitle + "</td>"; } html += "</tr></thead>"; for (int i = 0; i < ds.Tables[0].Rows.Count; i++) { if (PrimaryKey != "") { html += "<tr data-id='" + ds.Tables[0].Rows[i].Field <Object>(PrimaryKey) + "'>"; } else { html += "<tr>"; } for (int j = 0; j < kolonlar.Length; j++) { html += "<td>" + ds.Tables[0].Rows[i].Field <Object>(kolonlar[j].Trim()) + "</td>"; } if (content != "") { html += "<td>" + content + "</td>"; } html += "</tr>"; } } } output.RenderBeginTag("table"); } catch (Exception hata) { output.RenderBeginTag("div"); html += "<p style='color:red;'><strong>Hata:</strong> " + hata.Message + "</p>"; } output.Write(html); output.RenderEndTag(); }
protected void Page_Load(object sender, EventArgs e) { // if (!IsPostBack) { // extract URL parameters if (Request.Params["UCE"] != null) { UserControlForEditing = Request.Params["UCE"]; } if (Request.Params["BO"] != null) { BaseObject = Request.Params["BO"]; } if (Request.Params["SF"] != null) { ShowFields = Request.Params["SF"]; } if (Request.Params["DF"] != null) { DisplayFields = Request.Params["DF"]; } if (Request.Params["SEL"] != null) { SelectionField = Request.Params["SEL"]; } if (Request.Params["ID"] != null) { SelectionID = Request.Params["ID"]; } if (Request.Params["ORD"] != null) { OrderField = Request.Params["ORD"]; } if (Request.Params["LNK"] != null) { LinkField = Request.Params["LNK"]; } // configure the entity data source // use the commandtext to specify the query string Query = "select " + ShowFields + " from " + BaseObject + " where " + SelectionField + "=@Par order by " + OrderField; EntityDataSourceLinks.CommandText = Query; EntityDataSourceLinks.CommandParameters.Clear(); EntityDataSourceLinks.CommandParameters.Add("Par", System.Data.DbType.Guid, SelectionID); // now generate the columns GridView1.AutoGenerateColumns = false; string[] FieldList = ShowFields.Split(','); string[] FieldNames = DisplayFields.Split(','); for (int i = 0; i < FieldList.Count(); i++) { BoundField bc = new BoundField(); bc.DataField = FieldList[i]; bc.HeaderText = FieldList[i]; if (FieldNames.Count() > i) { bc.HeaderText = FieldNames[i]; } bc.Visible = bc.HeaderText.ToUpper() != "X"; // strip of leading this like it. if (bc.DataField.IndexOf('.') > 0) { bc.DataField = bc.DataField.Split('.')[1]; } if (bc.HeaderText.IndexOf('.') > 0) { bc.HeaderText = bc.HeaderText.Split('.')[1]; } GridView1.Columns.Add(bc); } } }
private void FillGrid() { Cursor = Cursors.WaitCursor; gridMain.BeginUpdate(); List <DisplayField> fields = DisplayFields.GetForCategory(DisplayFieldCategory.CEMTSearchPatients); if (gridMain.Columns.Count == 0) //Init only once. { foreach (DisplayField field in fields) { string heading = field.InternalName; if (string.IsNullOrEmpty(heading)) { heading = field.Description; } gridMain.Columns.Add(new ODGridColumn(heading, field.ColumnWidth)); } } gridMain.Rows.Clear(); ODGridRow row; for (int i = 0; i < _dataConnPats.Tables.Count; i++) { for (int j = 0; j < _dataConnPats.Tables[i].Rows.Count; j++) { row = new ODGridRow(); foreach (DisplayField field in fields) { switch (field.InternalName) { #region Row Cell Filling case "Conn": row.Cells.Add(_dataConnPats.Tables[i].TableName); break; case "PatNum": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["PatNum"].ToString()); break; case "LName": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["LName"].ToString()); break; case "FName": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["FName"].ToString()); break; case "SSN": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["SSN"].ToString()); break; case "PatStatus": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["PatStatus"].ToString()); break; case "Age": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["age"].ToString()); break; case "City": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["City"].ToString()); break; case "State": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["State"].ToString()); break; case "Address": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["Address"].ToString()); break; case "Wk Phone": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["WkPhone"].ToString()); break; case "Email": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["Email"].ToString()); break; case "ChartNum": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["ChartNumber"].ToString()); break; case "MI": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["MiddleI"].ToString()); break; case "Pref Name": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["Preferred"].ToString()); break; case "Hm Phone": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["HmPhone"].ToString()); break; case "Bill Type": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["BillingType"].ToString()); break; case "Pri Prov": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["PriProv"].ToString()); break; case "Birthdate": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["Birthdate"].ToString()); break; case "Site": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["site"].ToString()); break; case "Clinic": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["clinic"].ToString()); break; case "Wireless Ph": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["WirelessPhone"].ToString()); break; case "Sec Prov": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["SecProv"].ToString()); break; case "LastVisit": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["lastVisit"].ToString()); break; case "NextVisit": row.Cells.Add(_dataConnPats.Tables[i].Rows[j]["nextVisit"].ToString()); break; #endregion } } row.Tag = ListConns.Find(x => ((x.ServerName + ", " + x.DatabaseName) == _dataConnPats.Tables[i].TableName || x.ServiceURI == _dataConnPats.Tables[i].TableName)); gridMain.Rows.Add(row); } } gridMain.EndUpdate(); Cursor = Cursors.Default; if (_complConnAmt == ListConns.Count) { ODThread.QuitSyncThreadsByGroupName(1, "FetchPats"); //Clean up finished threads. butRefresh.Text = Lans.g(this, "Refresh"); labelFetch.Visible = false; if (!_hasWarningShown && _invalidConnsLog != "") { _hasWarningShown = true; //Keeps the message box from showing up for subsequent threads. MessageBox.Show(this, Lan.g(this, "Could not connect to the following servers") + ":" + _invalidConnsLog); } } else { butRefresh.Text = Lans.g(this, "Stop Refresh"); labelFetch.Visible = true; } }
public CapturePacket(Raw raw) { //RawCapture = raw; Date = raw.TimeStamp; _linkLayerType = raw.LinkLayer; try { Packet = Packet.ParsePacket((LinkLayers)raw.LinkLayer, raw.RawData); } catch (Exception e) { Error = e.Message; } if (Packet == null) { return; } // protect against corrupted data with a try read try { var throwaway = Packet.Bytes.Length + Packet.HeaderData.Length; } catch (Exception e) { _protocolinfo = "Malformed Packet or Header"; this.Error = "Malformed Packet or Header"; return; } if (Packet.PayloadPacket is IPv4Packet) { var ipv4 = (IPv4Packet)Packet.PayloadPacket; switch (ipv4.Protocol) { case PacketDotNet.ProtocolType.Tcp: var tcpPacket = (TcpPacket)ipv4.PayloadPacket; Protocol = ProtocolType.TCP; // catch a semi-rare error in PacketDotNet that cannot be checked against try { if (tcpPacket.PayloadData.Length == 0) { break; } } catch (Exception e) { Error = e.Message; break; } if ((tcpPacket.DestinationPort == 50039 || tcpPacket.DestinationPort == 50040) && tcpPacket.PayloadData.Length > 0) { Protocol = ProtocolType.JRU; try { var ss27 = ExtractSS27Packet(tcpPacket); DisplayFields.Add(new Tuple <string, object>("time", ss27.DateTime)); if (ss27.Events.Count == 0) { // if there is no event, chuck some other data in there, maybe // ParsedData = new ParsedDataSet() { ParsedFields = new List<ParsedField>(ss27.Header) }; } else { // TODO FIX THIS SO IT WORKS ss27.Events.ForEach(e => DisplayFields.Add(new Tuple <string, object>(e.EventType.ToString(), e.Description))); } this.SS27Packet = ss27; } catch (Exception e) { Error = e.Message; } } if (tcpPacket.SourcePort == 50041 && tcpPacket.PayloadData.Length > 0) { Protocol = ProtocolType.JRU; var jruload = tcpPacket.PayloadData; try { ushort jrulen = BitConverter.ToUInt16(new byte[] { jruload[1], jruload[0] }, 0); var buffer = new byte[jrulen]; Array.Copy(jruload, 2, buffer, 0, jrulen); ParsedData = VSIS210.JRU_STATUS.Parse(buffer); } catch (Exception e) { Error = e.Message; } } break; case PacketDotNet.ProtocolType.Udp: Protocol = ProtocolType.UDP; var udp = (UdpPacket)ipv4.PayloadPacket; if (udp == null) { _protocolinfo = "Malformed UDP"; this.Error = "Malformed UDP"; return; } // protect against corrupted data with a try read try { var throwaway = udp.DestinationPort + udp.SourcePort + udp.Length + udp.Checksum; } catch (Exception e) { _protocolinfo = "Malformed UDP"; this.Error = "Malformed UDP"; return; } if (udp.SourcePort == 123 && udp.DestinationPort == 123) { Protocol = ProtocolType.NTP; } else if (Equals(ipv4.SourceAddress, VapAddress)) { if (udp.DestinationPort == 50023) { _protocolinfo = "VAP->ETC (TR)"; } else if (udp.DestinationPort == 50030) { _protocolinfo = "VAP->ETC (DMI1 to ETC)"; } else if (udp.DestinationPort == 50031) { _protocolinfo = "VAP->ETC (DMI2 to ETC)"; } else if (udp.DestinationPort == 50032) { _protocolinfo = "VAP->ETC (DMI1 to iSTM)"; } else if (udp.DestinationPort == 50033) { _protocolinfo = "VAP->ETC (DMI2 to iSTM)"; } else if (udp.DestinationPort == 50051) { _protocolinfo = "VAP->ETC (DMI1 to gSTM)"; } else if (udp.DestinationPort == 50052) { _protocolinfo = "VAP->ETC (DMI2 to gSTM)"; } else if (udp.DestinationPort == 50024) { _protocolinfo = "VAP->ETC (DMI1 EVC-102)"; } else if (udp.DestinationPort == 50025) { _protocolinfo = "VAP->ETC (DMI2 EVC-102)"; } else if (udp.DestinationPort == 50039) { _protocolinfo = "VAP->ETC (STM to JRU)"; } else if (udp.DestinationPort == 50041) { _protocolinfo = "VAP->ETC (JRU Status)"; } else if (udp.DestinationPort == 50050) { _protocolinfo = "VAP->ETC (VAP Status)"; } else if (udp.DestinationPort == 50015) { Protocol = ProtocolType.UDP_SPL; _protocolinfo = "VAP->OPC (DMI to STM)"; } else if (udp.DestinationPort == 5514) { _protocolinfo = "VAP->BDS (VAP Diag)"; } } else if (Equals(ipv4.DestinationAddress, VapAddress)) { if (udp.DestinationPort == 50022) { _protocolinfo = "ETC->VAP (OBU)"; } else if (udp.DestinationPort == 50026) { _protocolinfo = "ETC->VAP (ETC to DMI1)"; } else if (udp.DestinationPort == 50027) { _protocolinfo = "ETC->VAP (ETC to DMI2)"; } else if (udp.DestinationPort == 50037) { _protocolinfo = "ETC->VAP (EVC-1&7)"; } else if (udp.DestinationPort == 50035) { _protocolinfo = "ETC->VAP (EVC-1&7)"; } else if (udp.DestinationPort == 50028) { _protocolinfo = "ETC->VAP (iSTM to DMI1)"; } else if (udp.DestinationPort == 50029) { _protocolinfo = "ETC->VAP (iSTM to DMI2)"; } else if (udp.DestinationPort == 50055) { _protocolinfo = "ETC->VAP (gSTM to DMI1)"; } else if (udp.DestinationPort == 50056) { _protocolinfo = "ETC->VAP (gSTM to DMI2)"; } else if (udp.DestinationPort == 50034) { _protocolinfo = "ETC->VAP (to JRU)"; } else if (udp.DestinationPort == 50057) { _protocolinfo = "ETC->VAP (VAP Config)"; } else if (udp.DestinationPort == 50014) { Protocol = ProtocolType.UDP_SPL; _protocolinfo = "OPC->VAP"; var payload = udp.PayloadData; var spl = VAP.UDP_SPL.Parse(payload); this.DisplayFields = spl.ParsedFields.Select(f => new Tuple <string, object>(f.Name, f.Value)).ToList(); if (spl.ParsedFields.Last().Value.Equals("C9")) { var nextBytes = Functions.SubArrayGetter(payload, 81); var stm = VAP.STM_Packet.Parse(nextBytes); DisplayFields.AddRange(stm.ParsedFields.Select(f => new Tuple <string, object>(f.Name, f.Value)).ToList()); } } else if (udp.DestinationPort == 50036) { _protocolinfo = "BDS->VAP (Diag)"; } else if (udp.DestinationPort == 50070) { _protocolinfo = "ETC->VAP (ATO)"; } else if (udp.DestinationPort == 50068) { _protocolinfo = "ETC->VAP (ATO)"; } else if (udp.DestinationPort == 50072) { _protocolinfo = "ETC->VAP (ATO)"; } } try { IPTWPPacket = IPTWPPacket.Extract(udp); } catch (Exception e) { Error = e.Message; } if (IPTWPPacket != null) { Protocol = ProtocolType.IPTWP; } break; case PacketDotNet.ProtocolType.Icmp: Protocol = ProtocolType.ICMP; // dunno break; case PacketDotNet.ProtocolType.Igmp: Protocol = ProtocolType.IGMP; // dunno break; default: throw new ArgumentOutOfRangeException(); } } else if (Packet.PayloadPacket is ArpPacket arpPacket) { Protocol = ProtocolType.ARP; } else if (Packet.PayloadPacket is IPv6Packet) { Protocol = ProtocolType.IPv6; // ignore, for now } else if (raw.LinkLayer == LinkLayerType.Ethernet && Packet.HeaderData[12] == 0x88 && Packet.HeaderData[13] == 0xe1) { Protocol = ProtocolType.HomeplugAV; // ignore } else if (raw.LinkLayer == LinkLayerType.Ethernet && Packet.HeaderData[12] == 0x89 && Packet.HeaderData[13] == 0x12) { Protocol = ProtocolType.Mediaxtream; // ignore } else if (raw.LinkLayer == LinkLayerType.Ethernet && Packet.HeaderData[12] == 0x88 && Packet.HeaderData[13] == 0xcc) { Protocol = ProtocolType.LLDP; // ignore } else { Protocol = ProtocolType.UNKNOWN; #if DEBUG // if we are in debug, we might want to know what is in the unknown // throw new NotImplementedException("Surprise data! " + BitConverter.ToString(packet.Bytes)); #endif } var extractParsedData = ExtractParsedData(this, out var displayfields); this.DisplayFields.AddRange(displayfields); this.ParsedData = extractParsedData; }